Method and system for transferring software and hardware feature licenses between devices

ABSTRACT

A method and system for transferring licenses between electronic devices supporting licensable features. Specifically, in a method a request is generated for transferring a license between first and second electronic devices. The request includes first information unique to the first electronic device, second information unique to the second electronic device. The request is sent to a license distributor to generates a master key. The master key includes a removal key including the first information and an add key including the second information. The removal key is used to remove the license from the first electronic device when the first information matches official versions of the first information. The add key is revealed from the master key when the license is successfully removed. The add key is used to add the license to the second electronic device when the second information matches official versions of the second information.

RELATED UNITED STATES PATENT APPLICATION

This Application is related to U.S. patent application, by PrabhakaraYellai, Mihir Maniar, Eric Eggel, Zafar Khalid, and Jyotsna Gummaraju,concurrently filed with the present Application on Nov. 18, 2004entitled “Method and System for Installing Software and Hardware FeatureLicenses on Devices” with attorney docket no. CSCO-9583, and assigned tothe assignee of the present invention. To the extent not repeatedherein, the contents of this related patent application are herebyincorporated herein by reference.

TECHNICAL FIELD

Embodiments of the present invention relate to the field of networkconnection management. More particularly, embodiments of the presentinvention relate generally to the transfer of software and hardwarefeature license between networking devices.

RELATED ART

Asynchronous Transfer Mode (ATM) technology is used as a backbonetechnology for some modern carrier networks. ATM supports networktransmission of information including data as well as real-time voiceand video. In an ATM network multiple virtual channels are used to carrymultiple data streams. As a result, multiple discrete paths aredynamically created on demand through network devices (e.g., switches,routers, etc.) in an ATM switched network to carry information trafficwithout relying on expensive and dedicated individual physical circuits.As such, traffic is relayed across an ATM network consisting of thenetwork devices.

Software and hardware license management for the network devices isimportant in maintaining good customer relations. A good licensingmanagement scheme can help manage a growing number of licenses requiredfrom a customer that is expanding services of network devices in an ATMnetwork. Managing the licensing of common software and hardware servicefeatures available to all the network devices allows customers toimplement features based on what the customer requires both at the timeof original installation and in the future.

However, one of the problems in managing licensing for network devicesis that enforcement of the licenses should be as transparent to thecustomer as possible. This problem is more challenging in the domain ofcarrier class networking products (e.g., ATM switches and routers) whereconnectivity to the ATM network may not be available for licensingmanagement.

One conventional license management scheme disclosed a centralizedlicense manager that communicated with each of the network devicesthrough the communication network. However, this management scheme isinadequate in ATM networks. That is, management of the network devicesdoes not necessarily occur over the network in an ATM network. This isespecially true when the network device fails.

Another conventional license management scheme included a card basedmodel. Licenses were packaged onto memory on a particular card (e.g.,service module). In this case, the license was dedicated to the servicemodule and enabled the associated service feature on the service modulewhen incorporated into a network device. As such, use of the servicefeature is allowed only on the service module if a license is includedon the service module. However, several problems exist with this cardbased model. In one case, when the service module fails, the replacementservice model would have to have its memory programmed with the same orbetter licenses as originally found on the failed service module. Thisis unsatisfactory as suitable spares outfitted with the same licensesare cost prohibitive since duplicate licenses go unused. As such,suitable spares with the correct format of licenses are usuallyunavailable.

In addition, when a new licensable feature is purchased to beimplemented on a network device, the new license must be programmed intothe memory of the corresponding service module that is implementing thelicensable feature. This usually involved a technical representative tohelp with the programming of the service module. The use of technicalrepresentatives can be time consuming for a customer who is interestedin bringing the new features on-line as soon as possible. In addition,on the customer service side, this programming of licenses is aninefficient use of human resources.

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects and advantages of the present invention willbe more readily appreciated from the following detailed description whenread in conjunction with the accompanying drawings, wherein:

FIG. 1 is an exemplary ATM network illustrating the relationship betweenthe customer and the customer service center when managing licenses atan electronic device supporting licensable features, upon which anembodiment of the present invention can be deployed, in accordance withone embodiment of the present invention.

FIG. 2 is a data flow diagram illustrating the flow of information whentransferring licenses between electronic devices supporting licensablefeatures, in accordance with one embodiment of the present invention.

FIG. 3 is a flow diagram illustrating a method for transferring licensesbetween electronic devices in a node based licensing scheme, inaccordance with one embodiment of the present invention.

FIG. 4 is a flow diagram illustrating a method for removing a licensefrom an electronic device using a removal key in a node based licensingscheme, in accordance with one embodiment of the present invention.

FIG. 5 is a flow diagram illustrating a method for adding a license toan electronic device using an add key in a node based licensing scheme,in accordance with one embodiment of the present invention.

FIG. 6 is a block diagram of a chassis for a network device that iscapable of locally managing and transferring licenses in a node basedlicensing scheme, in accordance with one embodiment of the presentinvention.

FIG. 7 is a block diagram of a controller that is capable oftransferring licenses at a network device in a node based licensingscheme, in accordance with one embodiment of the present invention.

FIG. 8 is a block diagram of a license distributor that is capable ofgenerating a master key for transferring licenses in a node basedlicensing scheme, in accordance with one embodiment of the presentinvention.

DETAILED DESCRIPTION OF THE INVENTION

Reference will now be made in detail to the preferred embodiments of thepresent invention, a method and system of transferring licenses in anode based licensing scheme between electronic devices that are capableof supporting licensable features, examples of which are illustrated inthe accompanying drawings. While the invention will be described inconjunction with the preferred embodiments, it will be understood thatthey are not intended to limit the invention to these embodiments. Onthe contrary, the invention is intended to cover alternatives,modifications and equivalents, which may be included within the spiritand scope of the invention as defined by the appended claims.

Embodiments of the present invention can be implemented on softwarerunning on a computer system. For instance, the computer system is apersonal computer, notebook computer, server computer, mainframe, anetwork device such as a switch, router, network control computer,networked computer, and the like. This software program is operable fortransferring licenses between electronic devices that are capable ofsupporting licensable features. In one embodiment, the computer systemincludes a processor coupled to a bus and memory storage coupled to thebus. The memory storage can be volatile or non-volatile and can includeremovable storage media. The computer can also include a monitor,provision for data input and output, etc.

Some portions of the detailed description which follow are presented interms of procedures, steps, logic blocks, processing, and other symbolicrepresentations of operations on data bits that can be performed oncomputer memory. These descriptions and representations are the meansused by those skilled in the data processing arts to most effectivelyconvey the substance of their work to others skilled in the art. Aprocedure, computer executed step, logic block, process, etc., is here,and generally, conceived to be a self-consistent sequence of steps orinstructions leading to a desired result. The steps are those requiringphysical manipulations of physical quantities. Usually, though notnecessarily, these quantities take the form of electrical or magneticsignals capable of being stored, transferred, combined, compared, andotherwise manipulated in a computer system. It has proven convenient attimes, principally for reasons of common usage, to refer to thesesignals as bits, values, elements, symbols, characters, terms, numbers,or the like.

It should be borne in mind, however, that all of these and similar termsare to be associated with the appropriate physical quantities and aremerely convenient labels applied to these quantities. Unlessspecifically stated otherwise as apparent from the followingdiscussions, it is appreciated that throughout the present invention,discussions utilizing terms such as “receiving,” “comparing,”“transferring,” “generating,” and “removing,” “installing,” or the like,refer to the actions and processes of a computer system, or similarelectronic computing device, including an embedded system, thatmanipulates and transforms data represented as physical (electronic)quantities within the computer system's registers and memories intoother data similarly represented as physical quantities within thecomputer system memories or registers or other such information storage,transmission or display devices.

Accordingly, various embodiments of the present invention disclose amethod and system for transferring hardware and software licensesbetween electronic devices capable of supporting licensable features.Embodiments of the present invention provide for the management oflicenses that is completely transparent to the operations of theelectronic devices, since management of licenses occurs locally at theelectronic device. In addition, the licensing management scheme of thepresent invention reduces service outages as licenses are maintained fora period of time before, during, and after device failure, so thatreplacement devices are enabled with the licenses of the failed device.Also, the license management scheme is scalable to large numbers ofelectronic devices since the management of license is decentralized.Further, the license management scheme can flexibly be used to enforcevarying types of software and hardware implementations, such as softwarefeatures, hardware entities like ports, bandwidth, connection capacity,etc.

Embodiments of the present invention are described in terms oftransferring licenses between electronic devices supporting licensablefeatures. More specifically, in some embodiments each of the electronicdevices can be any device that is capable of supporting licensableservices. For example, the electronic device can be a personal computerthat requires a license to enable the use of software features, hardwarefeatures that are located on the personal computer, or to enable certaincapacity or performance parameters available on the personal computer.Other embodiments are well suited to transferring licenses betweenelectronic devices (e.g., a network device such as a network switch)that each includes a chassis with multiple service modules that areplugged into slots associated with the chassis. These service modulessupport various licensable features that are activated with a license.These licensable features can include the forwarding of internetprotocol packets, providing voice/video services, providing AsynchronousTransfer Mode/Frame Relay (ATM/FR) services, etc.

FIG. 1 is a block diagram depicting an exemplary Asynchronous TransferMode (ATM) network 100, in accordance with one embodiment of the presentinvention. ATM is a high performance, cell oriented switching andmultiplexing technology that utilizes fixed-sized cells to carrydifferent types of traffic, such as voice, video, data, etc. ATM is aconnection oriented packet switching technique in which all packets areof fixed length (e.g., 53 bytes). While the present embodiment isdescribed within the context of network devices for illustrationpurposes only, these network devices are illustrative of electronicdevices in general that are capable of supporting licensable services,as described previously.

The ATM network 100 includes a set of ATM switches interconnected bypoint-to-point ATM links or interfaces. For instance, switches 121, 122,125, 127, and 129 are switches and can respectively represent the start,connecting, and end point of communications through the ATM network 100,and are coupled together by the communication cloud 110. Other switchesor network devices may be contained within the communication cloud 110in the ATM network 100. For example, the switches 121, 122, 125, 127,and 129 can be directly connected or further connected through otherswitches in the network 100 that facilitates ATM communication betweenthe nodes.

A link from a switch can contain thousands of connections. In an ATMnetwork, the connections are of varying bandwidth. Over theseconnections, information is transferred using ATM in an integratedmanner. Switches are responsible for cell transmission and switchingthrough the ATM network 100. For instance, switch 121 can receive anincoming connection and switches the incoming connection throughswitches in the ATM network 100 until reaching its destination, e.g.,switch 122. Some of the services provided by the switches and networkdevices in the ATM network 100 are enabled through licenses.

Also included within FIG. 1 is customer 160. Customer 160 manages a setof network devices within the ATM network 100. For instance, customer160 may manage the switches 121, 122, 125, 127, and other switcheswithin the communication cloud 110. In addition, FIG. 1 includescustomer 165. For instance, customer 165 may manage another set ofswitches, including switch 129. Management of the switches for each ofthe customers is through a direct link with each of the switches that isseparate from the ATM network 100. For example, the customer may entercommands or instruction sequences (e.g., through a command lineinterface) directly at the switch, as indicated by dotted lineconnection between the customer 160 and switch 122. Also, the customermay interface with the switch through a direct communication link, asindicated by the solid line connection between the customer 160 andswitch 121, as well as customer 165 and switch 129. In addition, thecustomer may enter commands and instruction sequences to variousswitches through network device interface 170 that are directly linkedto switches 127 and 125.

In embodiments of the present invention, the customer enters commands(e.g., command line interface [CLI] commands) or instruction sequencesfor the transferring of licenses between electronic devices. That is,one or more customers may transfer licenses between devices. Forinstance, in one case, customer 160 may transfer licenses between switch121 and 127. For example, a license may be removed from switch 121 andadded to switch 127. In another case, licenses may be transferredbetween switches 121 and 129 through the cooperation of customer 160 andcustomer 165. For example, a license may be removed from switch 121 andadded to switch 129.

In addition, FIG. 1 includes a customer service center 150 that providestechnical assistance and services for the network devices in the ATMnetwork 100. In one embodiment, the customer service center 150 is theoriginator of licenses that can be installed on the network devices(e.g., switches) managed by the customer 160 and 165. In addition, thecustomer service center 150 provides the necessary information forcontrolling the transfer of licenses between network devices. Forpurposes of the present invention, licenses can be transferredautomatically between devices in the ATM network 100 in a manner thatminimizes human intervention in the process, as will be fully describedbelow.

Embodiments of the present invention are capable of managing andtransferring licenses between electronic devices that are capable ofsupporting licensable features (e.g., an ATM network device, such as aswitch in FIG. 1). In one embodiment, licenses are transferred onelectronic devices in a node based licensing scheme. That is, licensemanagement occurs at the local node. While embodiments of the presentinvention are disclosed within the context of an ATM network, otherembodiments are well suited to other node based communication networksinvolving the transfer and management of licensing schemes.

FIG. 2 is a flow diagram illustrating the flow of information in alocalized, node based license management scheme that is capable oftransferring licenses for service features (e.g., hardware, software,capabilities, etc.) between nodes (e.g., electronic device, networkdevice, etc.), in accordance with one embodiment of the presentinvention. The present embodiment enables the secure transfer andmanagement of licenses between network devices. As a result, the presentembodiment flexibly accommodates licenses for both hardware and softwarefeatures that are available on a network device (e.g., bandwidth,lines/ports/connections, software applications, etc.). For illustrationpurposes only, the embodiment of FIG. 2 is described within the contextof transferring licenses between network devices. The network devicesare representative of electronic devices that are capable of supportingany licensable services, such as a personal computer upon which alicense is installed to enable a software, hardware, or performancefeature.

The exemplary network devices 220 and 225 of FIG. 2 can be ATM networkdevices, such as a switch or router, or any other network device. Thepresent embodiment is capable of transferring licenses between networkdevice 220 and 225 even though the network devices may be off-line fromany network, including the ATM network. In addition, the transfer oflicenses is implemented through a localized, node based licensingmanagement scheme, as further described below.

For example, the customer 210 (e.g., technician) is able to interfacewith the network devices 220 and 225 locally. That is, commands orinstruction sequences are inputted directly into the network device(e.g., through a local interface or through a direct connection to thenetwork device to enter command line interface instructions). Inaddition, management of licenses for each of the network devices 220 and225 occurs locally at that network device. For instance, controllercards associated with each network device 220 and 225, respectively,manage the transfer of the license between the network device 220 and225. In addition, each respective controller card manages licenses atthat network device (e.g., manages transfer, removal, addition,installation, and allocation of licenses).

In general, path 242 describes the sending of a transfer request fromthe customer 210 to the customer service center 230 for the transfer ofone or more licenses. The request enables the transfer of licenses fromnetwork device 220 to the network device 225, for example. In oneembodiment, the request is encrypted to protect the informationcontained within the request. The request can be transmitted through anymeans. For instance, the request in a digitized, bit pattern form can betransmitted over a data line, through e-mail, fax, or through a webinterface managed by the customer service center 230.

The request contains identifying information that is used to restrictthe transfer of the licenses only between the network devices 220 and225. In addition, the identifying information is able to restrict thetransfer of licenses to a one-time procedure. That is, the transfer ofthe licenses can only occur once, and only from the network device 220to the network device 225. In this manner, unauthorized distribution oflicenses is curtailed.

The identifying information contained within the request for thetransfer of licenses includes the number and type of licenses that areto be transferred, node identifiers, software version numbers, and asequence numbers. For instance, the request may include firstinformation that is unique to the network device 220. The firstinformation may include a node identifier, a sequence number, and asoftware version all associated with the network device 220. This firstinformation may be transferred to the customer 210 over path 240. Path240 represents any method suitable for the customer 210 obtaining thefirst information. For instance, the customer 210 may obtain the firstinformation through a direct link, or through a local interface at thenetwork device 220. Moreover, the information in path 240 is presentedoff-line from the network device 220.

Second information may be included in the request that is unique to thenetwork device 225. The second information may include a nodeidentifier, a sequence number, and a software version all associatedwith the network device 225. This second information may be transferredto the customer 210 over path 241. Path 241 represents any method forthe customer 210 suitable for obtaining the second information. Forinstance, the customer 210 may obtain the first information through adirect link, or through a local interface at the network device 225.Moreover, the information in path 241 is presented off-line from thenetwork device 225.

For example, the request can contain a request for the transfer of oneor more licenses from network device 220 to network device 225. Thelicenses enable hardware and software features that can be madeavailable on either of the network devices 220 and 225. Morespecifically, both the network devices 220 and 225 contain servicemodules that each are configured with hardware and software featuresthat are enabled via a license. These service modules are plugged intoslots on a corresponding network device that communicatively couple theservice modules to the system bus of the network device, for example.Some of the features are universalized and are implemented on more thanone, or all, of the service modules.

As such, the request contains the number of licenses to be transferredand the type of licenses to be transferred. The node identifiersidentify the nodes between which the licenses are transferred. Forinstance a first node identifier identifies the network device 220, anda second node identifier identifies the network device 225. As such, thelicenses are transferred between network devices 220 and 225. In oneembodiment, the node identifiers are serial numbers associated with thechassis that form the backbone of the network devices 220 and 225. Inother embodiments, the node identifier is a unique chassis identifier,such as a MAC address, backplane serial number, etc.

The software version numbers are also associated with the networkdevices 220 and 225. The software version numbers for each deviceindicate which version of software (e.g., an operating system) isrunning on that device. For instance the software version may controlthe transfer, allocation, and usage of resources that support thenetwork device 220 and 225.

The sequence numbers are unique numbers associated and dedicated to thenetwork devices 220 and 225, respectively. The sequence number for thenetwork device 220 is unique only within the network device 220. Thesequence number for the network device 225 is unique only within thenetwork device 225. In addition, the sequence numbers are used toinvalidate any further transfer of the requested licenses once they havebeen transferred between the network devices 220 and 225. This isachieved through an incrementing of the respective sequence numbersthroughout the process of transferring licenses, as fully describedbelow in relation to FIGS. 3, 4, and 5.

The request is received at the customer service center. The customerservice center 230 is able to coordinate the transfer of licensesbetween the network devices 220 and 225. At the customer service center230, the license distributor 235 performs the functions necessary totransfer the requested licenses for the customer. For instance, as shownin FIG. 2, the license distributor 235 generates the master key that isused to transfer the licenses between the network devices 220 and 225.The license distributor 235 sends the master key back to the customer210 over path 243. The master key is transmitted back to the customervia any suitable communication means. That is, the digitized, bitpattern that encodes the master key is transmitted to the customer 210(e.g., through e-mail, customer interface, fax, packaged in a storagedevice, etc. and sent to the customer). In addition, the master key isencrypted using an encryption engine (not shown) to protect theinformation encoded within.

FIG. 8 is a block diagram of a license distributor 235 of FIG. 2 used totransfer licenses between electronic devices. For example, the receiver810 receives a request from a service customer to transfer a licensefrom a first electronic device to a second electronic device. Therequest contains first information unique to the first electronicdevice, second information unique to the second electronic device, and alicense description, wherein the license enables a service feature onthe first electronic device and the second electronic device. Thegenerator 820 generates a master key that includes a removal key and anadd key. The removal key includes the first information for removing thelicense from the first electronic device and the add key includes thesecond information for adding the license to said second electronicdevice. The encryption module 830 encrypts the master key. Thetransmitter 840 sends the master key to the service customer.

Portions of the master key are formatted for the software versionsrunning on either the network device 220 or network device 225. Forinstance, the master key includes a removal key used to remove licensesfrom network device 220 and an add key for adding the transferredlicenses to network device 225. As such, the removal key of the masterkey is formatted to the software version of the network device 220. Theadd key of the master key is formatted to the software version of thenetwork device 225. The software versions are indicated in the originalrequest. In addition to the software version number, the master keycontains information identifying the licenses to be transferred (numberand type of licenses), the node identifiers identifying the networkdevices 220 and 225, and the sequence numbers associated with each ofthe network devices 220 and 225.

After the master key is received by the customer 210, information in themaster key is installed into the network device 220. For instance, themaster key may be embedded within a command line interface orinstruction sequence that is inputted into network device 220 by thecustomer 210 in order to transfer the licenses from the network device220. Installation of the CLI command or instruction sequence on networkdevice 220 is represented by path 245. Specifically, information in theremoval key in the master key is used to remove the licenses from thenetwork device 220. Provided the information in the removal key iscorrect, the CLI command or installation sequence removes the licensesas specified in the removal key from the network device 220.

Thereafter, the add key from the master key can be installed by thecustomer 210 on the network device 225, as represented by path 247. Theadd key is revealed in the master key after the removal of licenses fromthe network device 220, and retrieved by the customer 210, asrepresented by path 246. The add key may be embedded within a CLIinstruction sequence that is inputted into network device 225 in orderto add the licenses to the network device 225. Specifically, informationin the add key in the master key is used to add licenses to a pool oflicenses that is managed on the controller card of the network device225. Provided the information in the add key is correct, the CLI commandor installation sequence adds the licenses as specified in the add keyto the network device 225.

The process illustrated in FIG. 2 provides for local, node basedmanagement of licenses at each of the network devices 220 and 225. Thatis, the transfer of licensees between the network device 220 and 225occurs at the local level, at each of the network devices 220 and 225.As such, management of licenses does not require network availability(e.g., to the customer service center 230), and as such, servicesprovided by the network devices 220 and 225 are highly available.

For example, local management of licenses ensures that service providedby the network devices 220 and 225 are minimally impacted when hardwarecomponents on the network devices fail and have to be replaced. That is,after replacement of the failed components, either of the networkdevices 220 or 225 is able to allocate licenses locally so that thenetwork device can reach full service capacity in a minimal amount oftime. This is because licenses are managed locally at each of thenetwork devices 220 and 225, and interfacing with the customer servicecenter 230 or any network wide license server is minimized orunnecessary.

In addition, local management of licenses is not impacted by the size ofthe network (e.g., ATM network 100). As such, the management of licensesas described in the present invention is highly scalable. That is, anynumber of licenses can be transferred easily using the methods as shownin FIG. 2.

FIG. 3 is a flow diagram 300 illustrating steps in a method fortransferring licenses between electronic devices, in accordance with oneembodiment of the present invention. For instance, the method of FIG. 3illustrates the interaction between the customer 210, the licensedistributor 235 and the network devices 220 and 225 of FIG. 2, in oneinstance. In another embodiment, the method illustrated in flow diagram300 transfers licenses between electronic devices using a localized,node based license management scheme.

While the present embodiment is described within the context oftransferring licenses between electronic devices, other embodiments arewell suited to transferring licenses between any device that is able tosupport licensable features, such as network devices that include achassis with multiple service modules that are plugged into slotsassociated with the chassis.

At 310, the present embodiment generates a request to transfer a licensefrom a first electronic device to a second electronic device. Therequest includes first information that is unique to the firstelectronic device and second information that is unique to the secondelectronic device. For instance, the request includes a node identifierthat identifies the first electronic device. In one embodiment, the nodeidentifier is a serial number for the chassis backplane of the firstelectronic device. The request also includes a node identifier thatidentifies the second electronic device. In one embodiment, the nodeidentifier is a serial number for the chassis backplane of the secondelectronic device. Identification of the first electronic device and thesecond electronic device ensures that the licenses are transferred onlybetween these two devices.

For purposes of generating the request, the present embodiment retrievesa first official node identifier stored in a first non-volatile memory.The first non-volatile memory is dedicated to the first electronicdevice. The first official node identifier is used as the first nodeidentifier throughout the transfer process to ensure that the licenseidentified in the request is only transferred from the first electronicdevice. In addition, the present embodiment retrieves a second officialnode identifier stored in a second non-volatile memory. The secondnon-volatile memory is dedicated to the second electronic device. Thesecond official node identifier is used as the second node identifierthroughout the transfer process to ensure that the license identified inthe request is only transferred to the second electronic device.

The request also includes a description of the license that is beingtransferred from the first electronic device to the second electronicdevice. Specifically, the type of the license is included in the requestto identify which license is to be transferred from the first electronicdevice to the second electronic device. The license enables a servicefeature on either or both of the first electronic device and the secondelectronic device.

Additionally, the request may include more than one licenses to betransferred between the first and second electronic devices. As such,necessary description of all the licenses to be transferred are includedwithin the request. That is, the request and the master key furthercomprise additional information for transferring another license fromthe first electronic device to the second electronic device.

At 320, the present embodiment sends the request to a licensedistributor. The license distributor generates a master key in responseto the request. The master key is used by the customer to transfer thelicense from the first electronic device to the second electronicdevice. The master key includes a removal key and an add key. Theremoval key includes first information that identifies the firstelectronic device. The first information contained in the removal key isused to remove the license from the first electronic device, as will befurther described below in relation to FIG. 4. In addition, the add keyincludes second information that identifies the second electronicdevice. The information contained in the add key is used to add thelicense to the second electronic device, as will be further describedbelow in relation to FIG. 5.

At 330, the present embodiment receives the master key from the licensedistributor. That is, in response to the request, the present embodimentreceives the master key in order to implement the transfer of thelicense between the first electronic device and the second electronicdevice. Receipt of the master key occurs off-line and separate fromeither the first electronic device or the second electronic device. Forexample, as shown in FIG. 2, the customer 210 receives the master keyfrom the license distributor 235. Thereafter, the customer 210 uses theinformation contained within the master key, and more specifically theremoval key, to remove the license from the network device 220. Inaddition, the customer 210 uses the information in the master key,specifically the add key, to add the license to the network device 225.

The master key includes information necessary to transfer the licensebetween the first electronic device and the second electronic device.That is, one or more transfer sequences uses the information in themaster key to transfer the license between the first and secondelectronic devices. For instance, the information includes the number oflicenses to be transferred, the types of each of the licenses to betransferred, the node identifiers of the first and second electronicdevices, the sequence number associated with each of the first andsecond electronic devices, and the software versions of each of theelectronic devices, as will be further described below.

As such, the master key is used to transfer one or more licenses betweenthe first and second electronic devices. The transferred licenses areassociated with one or more service features (hardware and software)that can be implemented on either of the first or second electronicdevices. In still another embodiment, if the master key is encrypted,the present embodiment decrypts the master key before performing thetransfer sequence at the first electronic device.

At 340, the present embodiment, uses the removal key to remove thelicense from the first electronic device, as is more fully described inFIG. 4. More specifically, the removal key contained within the masterkey is used to remove the license from the first electronic device. Thatis, the master key is installed on the first electronic device, andcorrespondingly, the removal key in the master key is also installed onthe first electronic device. For example, the master key can be embeddedwithin a CLI command or an instruction sequence that provides for thetransfer (removal and addition) of licenses. The removal key isextracted and used to remove licenses from the first electronic device.Removal occurs when the first information in the removal key in themaster key matches official versions of the first information stored onthe first electronic device. After successful removal of the license,the add key is revealed from the master key.

For example, the master key can be provided directly to the firstelectronic device in an instruction sequence to transfer the license. Assuch, the master key contains information that is used during a transfersequence implemented on both the first and second electronic devices.For example, the customer 210 can install the master key into thenetwork device 220 of FIG. 2 through a command line interface in a CLIcommand at the device 220 that starts the transfer process. The removalkey is extracted from the master key and is used to remove the licensefrom the device 220. Provided the information in the master key iscorrect, the transfer instruction sequence transfers the licenseprovided in the master key from the first electronic device to thesecond electronic device.

At 350, the present embodiment installs the add key on the secondelectronic device to add the license to the second electronic device, asmore fully described below in relation to FIG. 5. That is, the same oranother customer can install the information in the add key to add thelicense to the second electronic device. The addition of the licenseoccurs when the second information matches official versions of thesecond information on the second electronic device. As a result, thetransfer process is completed when the license is removed from the firstelectronic device and added to the second electronic device. The servicefeature associated with the license can then be implemented on thesecond electronic device through a corresponding service module thatincludes a controller card.

FIG. 4 is a flow diagram 400 illustrating steps in a method for removinga license at a first electronic device from which the license is beingtransferred, in accordance with one embodiment of the present invention.The method of flow diagram 400 is a further illustration of 340 in FIG.3 to begin the transfer process. As such, the first information in theremoval key is used to remove the license from the first electronicdevice. More specifically, the first information obtained from themaster key includes the license to be removed (e.g., its license type),the node identifier of the first electronic device, the sequence numberassociated with the first electronic device, and the software version ofthe first electronic device.

At 410, the present embodiment compares the node identifier in the firstinformation to an official node identifier for the first electronicdevice. The official node identifier is stored in non-volatile memorydedicated to the first electronic device. For instance, the officialnode identifier is the serial number of the chassis that provides thebackplane for service modules that support the first electronic device.The service modules are plugged into slots of the chassis thatcommunicatively couple each of the service modules to system bus of thefirst electronic device. The official node identifier uniquelyidentifies the first electronic device. As such, the node identifierensures that the license is removed from only the first electronicdevice, and not any other devices. In addition, the official nodeidentifier of the chassis should/may be stored in a tamper proof deviceto prevent duplication, in accordance with one embodiment. In anotherembodiment, the official node identifier is encrypted or rendered tamperproof to prevent misuse of the official node identifier.

At 420, the present embodiment compares the sequence number in the firstinformation to an official sequence number that is associated with thefirst electronic device. The official sequence number is maintained atthe electronic device and is also stored in the non-volatile memorydedicate to the first electronic device. The official sequence number isused to ensure that removal of the license using the removal key isperformed once, as tied to the official sequence number. That is, oncethe license is removed from the first electronic device, the removal keybecomes invalid, through a change in the official sequence number.

At 430, the present embodiment removes the license from a pool oflicenses available to the first electronic device when the nodeidentifier matches the official node identifier and the sequence numbermatches the official sequence number. That is, the removal occurs whenthe node identifier in the removal key matches the official nodeidentifier, and in combination when the sequence number in the removalkey matches the official sequence number. Licenses are available forremoval only if they are not currently being allocated to a slot in thefirst electronic device, in one embodiment.

The pool of licenses is managed locally (e.g., by the controller card ofthe electronic device). In one embodiment, the pool of licenses is tiedto the first electronic device using the official node identifier. Thelicense pool contains licenses that are available to service modulesimplemented within the first electronic device. Localized management oflicenses on the first electronic device is managed through the pool oflicenses. For instance, licenses from the pool are allocated to slots onthe first electronic device such that any service module installed orplugged into a corresponding slot may enable a service featureassociated with that license.

The present embodiment aborts the removal of the license when the nodeidentifier in the removal key and the official node identifier do notmatch. In addition, the present embodiment aborts the removal of thelicense when the sequence number in the removal key and the officialsequence number do not match. That is, anytime either the nodeidentifier or the sequence number do not match their respective officialversions, the removal of the license on the first electronic device isaborted.

In another embodiment, the removal of the license is aborted when thelicense pool in the first electronic device does not include therequisite license or licenses as specified in the removal key. That is,in the case of a single license being transferred from the firstelectronic device, the license pool either does not include the license,or does not include the license in a state ready for removal. Forinstance, if the license is currently being allocated to a slot in thechassis of the first electronic device, that license is not removable.In the case where multiple licenses are to be transferred, the removalof the licenses is aborted when the license pool in the first electronicdevice does not include the specific licenses as specified in theremoval key, or does not include enough of the licenses in a stateavailable for removal, such as not being allocated to a slot.

To provide further security, the present embodiment compares thesoftware version contained in the removal key to the official softwareversion number of the first electronic device. The official softwareversion number may be embedded into the software itself, and may or maynot be stored in the non-volatile memory dedicated to the electronicdevice. Moreover, if the software version number in the removal keymatches the official software version number of the electronic device,then the present embodiment removes the license from the pool oflicenses. However, if the software version number in the removal keydoes not match the official software version number of the firstelectronic device, then the removal is aborted. In one embodiment, theofficial software version selects the secret key that is used to decryptthe removal key. That is, the secret key used to decrypt the removal keyis selected based on the official software version of the firstelectronic device.

Once the license has been successfully removed from the pool of licensesavailable to the first electronic device, the official sequence numberis incremented to change the official sequence number. This makes theremoval key in the master key as identified by its sequence numberunusable for any subsequent removal of the license on the firstelectronic device. As such, the combination of the official nodeidentifier and the official sequence number ensures that the removal inthe transfer process occurs once and only at the first electronicdevice. In one embodiment, the official sequence number should/may bestored in a tamper proof location to prevent reusing the removal key. Inanother embodiment, the official sequence number is encrypted orrendered tamper proof to prevent misuse of the official sequence number.

After successful removal of the license from the first electronicdevice, the add key is revealed from the master key. As such, the addkey can be used to complete the transfer process and add, or install,the license onto the second electronic device. FIG. 5 is a flow diagram500 illustrating steps in a method for adding a license to the secondelectronic device from which the license is being transferred, inaccordance with one embodiment of the present invention. The method offlow diagram 500 is a further illustration of 350 in FIG. 3 to end thetransfer process. As such, the second information in the add key is usedto add the license to the second electronic device. More specifically,the second information obtained from the add key in the master keyincludes the license to be added (e.g., its license type), the nodeidentifier of the second electronic device, the sequence numberassociated with the second electronic device, and the software versionof the second electronic device.

For example, the add key can be provided directly to the secondelectronic device in an instruction sequence to transfer the license.For example, in relation to FIG. 2, the customer 210 can install the addkey into the network device 225 of FIG. 2 through a command lineinterface in a CLI command at the device 225 that ends the transferprocess. The add key is used to add the license to the device 225.

At 510, the present embodiment compares the node identifier in thesecond information to an official node identifier for the secondelectronic device. The official node identifier is stored innon-volatile memory dedicated to the second electronic device. Forinstance, the official node identifier is the serial number of thechassis that provides the backplane for service modules that support thesecond electronic device. The service modules are plugged into slots ofthe chassis that communicatively couple each of the service modules tosystem bus of the second electronic device. The official node identifieruniquely identifies the second electronic device. As such, the nodeidentifier ensures that the license is added or installed only to thesecond electronic device, and not any other devices. In addition, theofficial node identifier of the chassis should/may be stored in a tamperproof device to prevent duplication, in accordance with one embodiment.In another embodiment, the official node identifier is encrypted orrendered tamper proof to prevent misuse of the official node identifier.

At 520, the present embodiment compares the sequence number in thesecond information to an official sequence number that is associatedwith the second electronic device. The official sequence number ismaintained at the second electronic device and is also stored in thenon-volatile memory dedicated to the second electronic device. Theofficial sequence number is used to ensure that addition of the licenseusing the add key is performed once, as tied to the official sequencenumber. That is, once the license is added to the second electronicdevice, the add key becomes invalid, through a change in the officialsequence number.

At 530, the present embodiment adds the license to a pool of licensesavailable to the second electronic device when the node identifiermatches the official node identifier and the sequence number matches theofficial sequence number. That is, addition occurs when the nodeidentifier in the add key matches the official node identifier, and incombination when the sequence number in the add key matches the officialsequence number.

The pool of licenses is managed locally (e.g., by the controller card ofthe second electronic device). In one embodiment, the pool of licensesis tied to the second electronic device using the official nodeidentifier. The license pool contains licenses that are available toservice modules implemented within the second electronic device.Localized management of licenses on the second electronic device ismanaged through the pool of licenses. For instance, licenses from thepool are allocated to slots on the second electronic device such thatany service module installed or plugged into a corresponding slot mayenable a service feature associated with that license.

The present embodiment aborts the addition of the license when the nodeidentifier in the add key and the official node identifier do not match.In addition, the present embodiment aborts the addition of the licensewhen the sequence number in the add key and the official sequence numberdo not match. That is, anytime either the node identifier or thesequence number do not match their respective official versions, theaddition of the license on the second electronic device is aborted.

To provide further security, the present embodiment compares thesoftware version contained in the add key to the official softwareversion number of the second electronic device. The official softwareversion number is embedded within the software, and may or may not bestored in the non-volatile memory dedicated to the second electronicdevice. Moreover, if the software version number in the add key matchesthe official software version number of the electronic device, then thepresent embodiment adds the license to the pool of licenses. However, ifthe software version number in the add key does not match the officialsoftware version number of the second electronic device, then theaddition is aborted. In one embodiment, the official software versionselects the secret key that is used to decrypt the add key. That is, thesecret key used to decrypt the add key is selected based on the officialsoftware version of the second electronic device.

Once the license has been successfully added and transferred to the poolof licenses available to the second electronic device, the officialsequence number is incremented to change the official sequence number.This makes the add key in the master key as identified by its sequencenumber unusable for any subsequent addition of the license on the secondelectronic device. As such, the combination of the official nodeidentifier and the official sequence number ensures that the addition inthe transfer process occurs once and only at the second electronicdevice. In one embodiment, the official sequence number should/may bestored in a tamper proof location to prevent reusing the add key. Inanother embodiment, the official sequence number is encrypted orrendered tamper proof to prevent misuse of the official sequence number.

FIG. 6 is a block diagram of an electronic device 600 which is capableof managing licenses locally for the local transfer of a license from orto the electronic device 600, in accordance with one embodiment of thepresent invention. That is, the electronic device is able to remove alicense from use by the electronic device 600, or add a license for useby the electronic device 600. The electronic device 600 is capable ofsupporting features that are activated through licenses as enabled byservice modules installed on slots in the electronic device 600. In oneembodiment, the electronic device is a network device, such as a switch.As such, the electronic device 600 is capable of off-line transfer(removal or addition) of licenses.

The electronic device 600 includes a chassis of a backplane thatsupports the electronic device. In one embodiment, the electronic deviceis a node in an associated ATM, or any other, network. For instance, theelectronic device 600 is representative of either the network devices220 or 225 in FIG. 2. In addition, the electronic device 600 comprises anon-volatile memory 610, a plurality of service modules that are pluggedinto slots (e.g., 1-32) of the chassis backplane. The service models(e.g., module 620) provide hardware, software and performance featuresthat are enabled with licenses, for instance.

The non-volatile memory 610 is dedicated to the chassis backplane of theelectronic device 600. That is, the chassis comes equipped with thenon-volatile memory 610 and is dedicated to the chassis, and integratedinto the chassis. In one embodiment, the non-volatile memory is tamperproof.

In one embodiment, the non-volatile memory stores an official sequencenumber and an official node identifier for the electronic device 600. Asdescribed previously, the official node identifier may define theelectronic device 600. In one embodiment, the node identifier is theserial number of the chassis backplane associated with the electronicdevice 600. The official sequence number is maintained at thenon-volatile memory 610 to ensure that transfer of licenses correspondto a request for the transfer of those licenses that contain the samesequence numbers for both the devices from which the licenses are beingtransferred and to which the license is being transferred, as previouslydescribed.

As shown in FIG. 6, the controller modules 630 and 635 are identical,and perform identically. The controller modules 630 and 635 are coupledto the non-volatile memory 610. One controller module is used for backuppurposes. One of the functions of the controller modules 630 and 635 isto manage the pool of licenses that is available to the electronicdevice 600. As such, the active controller module (630 or 635) receivesthe master key, removal key, or add key comprising a license for aservice feature, a node identifier associated with node to which thelicense is removed or added, and a sequence number associated with thenode to which the license is being removed or added. In one embodiment,the master key, removal key, or add key is formatted to a softwareversion of the electronic device, as described previously.

FIG. 7 is a block diagram of a controller module 700 (e.g., controllermodule 630 or 635 of FIG. 6), in accordance with one embodiment of thepresent invention. The controller module 700 comprises a license manager710, a comparator 720, a transfer module 730, a memory storage 740, alicense pool 750, and a state table 760.

The license manager 710 manages a pool of licenses 750 available to anassociated electronic device (e.g., device 600 of FIG. 6). The licensemanager is capable of transferring and allocating licenses to slots onthe electronic device. The allocated licenses enable correspondingservice features on service modules plugged into those slots.

More specifically, in one embodiment, the license is allocated to aparticular slot on the electronic device. The license enables a servicefeature associated with the license on any service module installed(e.g., plugged in) in that slot. For instance, in one embodiment, thecontroller card manages the pool of licenses. Also, in one embodiment,the pool of licenses is maintained on the controller card. Thecontroller card allocates licenses in the pool of licenses to the slotsin the electronic device. Any service module that is installed, orplugged, into that slot can enable the associated service featurecorresponding to the license. The service module is plugged into one ormore slots in the electronic device to communicatively couple theservice module to the system bus of the electronic device in order toutilize the service features.

In addition, a license can be deallocated from a slot when thecorresponding service module no longer needs the license. That is, theapplication is no longer being used on the service module. In this case,the license is returned to the pool of licenses, and the license isagain available for allocation to any of the slots on the electronicdevice.

As a result, a localized, node based licensing scheme is implemented.Localized management of licenses provides for less reliance on acentralized license management scheme that manages the transfer oflicenses for the electronic device. In this manner, the electronicdevice can provide services much more quickly since a centralizedlicense manager is not required for the transfer of licenses.

Localized management of the licenses is implemented through a licensepool 750 and a state table 760 that is contained within memory storage740 dedicated to the controller module 700. The memory storage 740 canbe a hard disk drive, or non-volatile memory, or any other suitablecombination of memory types. As stated previously, the license pool 750contains licenses that are available to service modules implementedwithin the electronic device. That is, in the transfer process, licensescan be removed or added to the license pool 750 in a localizedmanagement scheme.

In one embodiment, the license pool is managed locally by the licensemanager 710 using a state table 760. To illustrate an exemplary statetable 760, Table 1 provides the information contained in the state table760. The state table 760 stores states of licenses in the pool oflicenses 750. The columns in Table 1 define the license type (e.g.,“License Type”), the quantity of installed licenses available for theelectronic device (e.g., “Installed Quantity”), and the number oflicenses of that type that are allocated (e.g., “Allocated Quantity”).For instance, one type of license may provide a feature on theelectronic device that enables multiplexing, channelization, etc. TABLE1 State Table of FIG. 7 License Type Installed Quantity AllocatedQuantity Type A 4 2 Type B 2 0 Type C 1 1 Type D 5 0

In one embodiment, removal of a license is reflected in the state tableof FIG. 7. That is, the license is removed from the state table of FIG.7 and can no longer be implemented within the electronic deviceassociated with the state table of FIG. 7. In another embodiment, theaddition of a license is reflected in the state table of FIG. 7. Thatis, the license is added to the state table of FIG. 7 and can beimplemented within the electronic device associated with the state tableof FIG. 7. In addition, the license manager can create a configurationof the licenses used in the electronic device. The configuration isstored in the memory storage 740.

In one embodiment, the license manager 710 receives the master key,removal key, and/or add key as an input for the transfer of licenses tothe license pool 750. Each of the keys is encrypted, and decrypted usingdecrypting module 715. A secret key, as selected based on the softwareversion used by the electronic device, is used by the decrypting module715 to decrypt the master key, removal key, or add key. As statedpreviously, each of these keys contains information that is used torestrict the transfer of licenses only to an identified electronicdevice through a node identifier. Also, these keys can only be used onlyonce, as regulated by corresponding sequence numbers on the electronicdevices involved in the transfer process.

The comparator 720 compares the node identifier contained in a removalor add key that is used to transfer licenses to an official nodeidentifier for the electronic device. As described previously, theofficial node identifier is stored in the non-volatile memory (e.g., 610of FIG. 6) dedicated to the node, electronic device. The comparator 720also compares the sequence number in the master key, removal key, or addkey to an official sequence number stored at the non-volatile memory.

In addition, the transfer module 730 is used to transfer the license toand from the pool of licenses 750 when the node identifier and thesequence number in the corresponding master key, removal key, or add keymatches their respective official versions.

Accordingly, various embodiments of the present invention disclose amethod and system for transferring hardware and software licensesbetween electronic devices capable of supporting licensable features.Embodiments of the present invention provide for the prevention ofunauthorized use of a license, for example multiple uses of a singlelicense. In addition, localized management of licenses at an electronicdevice as disclosed by embodiments of the present invention facilitate apay-as-you grow model for installing future licenses on an electronicdevice.

While the methods of embodiments illustrated in flow diagrams 300, 400,and 500 show specific sequences and quantity of steps, the presentinvention is suitable to alternative embodiments. For example, not allthe steps provided for in the method are required for the presentinvention. Furthermore, additional steps can be added to the stepspresented in the present embodiment. Likewise, the sequences of stepscan be modified depending upon the application.

Embodiments of the present invention, a method and system fortransferring licenses between electronic devices are described. Whilethe invention is described in conjunction with the preferredembodiments, it is understood that they are not intended to limit theinvention to these embodiments. On the contrary, the invention isintended to cover alternatives, modifications and equivalents, which maybe included within the spirit and scope of the invention as defined bythe appended claims. Furthermore, in the detailed description of thepresent invention, numerous specific details are set forth in order toprovide a thorough understanding of the present invention. However, itwill be recognized by one of ordinary skill in the art that the presentinvention may be practiced without these specific details. In otherinstances, well-known methods, procedures, components, and circuits havenot been described in detail as not to unnecessarily obscure aspects ofthe present invention.

1. A method for transferring licenses between devices, comprising:generating a request to transfer a license from a first electronicdevice to a second electronic device, said request comprising firstinformation unique to said first electronic device, second informationunique to said second electronic device, and a license description,wherein said license enables a service feature on said first electronicdevice and said second electronic device; sending said request to alicense distributor that generates a master key in response to saidrequest, wherein said master key comprises a removal key comprising saidfirst information for removing said license from said first electronicdevice and an add key comprising said second information for adding saidlicense to said second electronic device; receiving said master key fromsaid license distributor; using said removal key to remove said licensefrom said first electronic device by installing said master key on saidfirst electronic device when said first information in said master keymatches official versions of said first information on said firstelectronic device, wherein said add key is revealed from said master keywhen said license is successfully removed; and installing said add keyon said second electronic device to add said license to said secondelectronic device when said second information matches official versionsof said second information on said second electronic device.
 2. Themethod of claim 1, wherein said using said removal key to remove saidlicense further comprises: comparing a node identifier in said firstinformation to an official node identifier for said first electronicdevice, said official node identifier stored in a non-volatile memorydedicated to said first electronic device; comparing a sequence numberin said first information to an official sequence number associated withsaid first electronic device, said official sequence number stored insaid non-volatile memory; removing said license from a pool of licensesavailable to said first electronic device when said node identifiermatches said official node identifier and said sequence number matchessaid official sequence number; and incrementing said official sequencenumber after successful removal of said license.
 3. The method of claim2, further comprising: comparing a software version in said firstinformation to an official software version for said first electronicdevice that is stored in said non-volatile memory; and removing saidlicense from said pool of licenses when said software version matchessaid official software version.
 4. The method of claim 1, wherein saidinstalling said add key further comprises: comparing a node identifierin said second information to an official node identifier for saidsecond electronic device, said official node identifier stored innon-volatile memory dedicated to said second electronic device;comparing a sequence number in said second information to an officialsequence number associated with said second electronic device, saidofficial sequence number stored in said non-volatile memory; adding saidlicense to a pool of licenses available to said second electronic devicewhen said node identifier matches said official node identifier and saidsequence number matches said official sequence number; and incrementingsaid second sequence number after successful transfer of said license tosaid pool of licenses.
 5. The method of claim 2, further comprising:comparing a software version in said second information to an officialsoftware version for said second electronic device that is stored insaid non-volatile memory; and adding said license to said pool oflicenses when said software version matches said official softwareversion.
 6. The method of claim 2, wherein said node identifiercomprises a serial number for a chassis backplane of said firstelectronic device.
 7. The method of claim 4, wherein said nodeidentifier comprises a serial number for a chassis backplane of saidsecond electronic device.
 8. The method of claim 1, wherein saidgenerating a request comprises: retrieving a first official nodeidentifier stored in first non-volatile memory dedicated to said firstelectronic device, said official node identifier used as said first nodeidentifier; and retrieving a second official node identifier stored insecond non-volatile memory dedicated to said second electronic device,said second official node identifier used as said second nodeidentifier.
 9. The method of claim 1, wherein said sending said requestfurther comprises: presenting off-line from said first electronic deviceand said second electronic device said request in an encrypted form. 10.The method of claim 1, wherein said request and said master key furthercomprises additional information for transferring another license fromsaid first electronic device to said second electronic device.
 11. Themethod of claim 1, further comprising: aborting removal of said licensewhen said first information in said master key does not match officialversions of said first information.
 12. The method of claim 1, furthercomprising: aborting removal of said license when said license is notavailable for removal in a license pool associated with said firstelectronic device.
 13. The method of claim 1, further comprising:aborting adding said license to said second electronic device when saidsecond information in said add file does not match official versions ofsaid second information.
 14. The method of claim 1, wherein said firstelectronic device and said second electronic device are network devices.15. A method for off-line transfer of licenses between electronicdevices, comprising: receiving a request from a service customer totransfer a license from a first electronic device to a second electronicdevice, said request containing first information unique to said firstelectronic device, second information unique to said second electronicdevice, and a license description, wherein said license enables aservice feature on said first electronic device and said secondelectronic device; generating a master key, wherein said master keycomprises a removal key comprising said first information for removingsaid license from said first electronic device and an add key comprisingsaid second information for adding said license to said secondelectronic device; encrypting said master key; and sending said masterkey to said service customer.
 16. The method of claim 15, wherein saidreceiving a request further comprises: receiving said request through aweb interface off-line from said first electronic device and said secondelectronic device.
 17. The method of claim 15, wherein said generating amaster key further comprises: formatting said removal key according to afirst software version operating on said first electronic device, saidfirst software version included within said request; and formatting saidremoval key according to a second software version operating on saidsecond electronic device, said second software version included withinsaid request.
 18. The method of claim 15, wherein said first informationcomprises a first node identifier, a first sequence number, and asoftware version all associated with said first electronic device, andwherein said second information comprises a second node identifier, asecond sequence number, and a second software version all associatedwith said second electronic device.
 19. A computer readable mediumcontaining executable instructions which, when executed in a processingsystem, causes the system to perform a method for transferring licensesbetween devices, comprising: generating a request to transfer a licensefrom a first electronic device to a second electronic device, saidrequest containing first information unique to said first electronicdevice, second information unique to said second electronic device, anda license description, wherein said license enables a service feature onsaid first electronic device and said second electronic device; sendingsaid request to a license distributor that generates a master key inresponse to said request, wherein said master key comprises a removalkey comprising said first information for removing said license fromsaid first electronic device and an add key comprising said secondinformation for adding said license to said second electronic device;receiving said master key from said license distributor; using saidremoval key to remove said license from said first electronic device byinstalling said master key on said first electronic device when saidfirst information in said master key matches official versions of saidfirst information on said first electronic device, wherein said add keyis revealed from said master key when said license is successfullyremoved; and installing said add key on said second electronic device toadd said license to said second electronic device when said secondinformation matches official versions of said second information on saidsecond electronic device.
 20. The computer readable medium of claim 19,wherein said using said removal key to remove said license in saidmethod further comprises instructions for performing: comparing a nodeidentifier in said first information to an official node identifier forsaid first electronic device, said official node identifier stored in anon-volatile memory dedicated to said first electronic device; comparinga sequence number in said first information to an official sequencenumber associated with said first electronic device, said officialsequence number stored in said non-volatile memory; removing saidlicense from a pool of licenses available to said first electronicdevice when said node identifier matches said official node identifierand said sequence number matches said official sequence number; andincrementing said official sequence number after successful removal ofsaid license.
 21. The computer readable medium of claim 20, furthercomprising instructions for performing: comparing a software version insaid first information to an official software version for said firstelectronic device that is stored in said non-volatile memory; andremoving said license from said pool of licenses when said softwareversion matches said official software version.
 22. The computerreadable medium of claim 19, wherein said installing said add key insaid method further comprises instructions for performing: comparing anode identifier in said second information to an official nodeidentifier for said second electronic device, said official nodeidentifier stored in non-volatile memory dedicated to said secondelectronic device; comparing a sequence number in said secondinformation to an official sequence number associated with said secondelectronic device, said official sequence number stored in saidnon-volatile memory; adding said license to a pool of licenses availableto said second electronic device when said node identifier matches saidofficial node identifier and said sequence number matches said officialsequence number; and incrementing said second sequence number aftersuccessful transfer of said license to said pool of licenses.
 23. Thecomputer readable medium of claim 20, further comprising instructionsfor performing: comparing a software version in said second informationto an official software version for said second electronic device thatis stored in said non-volatile memory; and adding said license to saidpool of licenses when said software version matches said officialsoftware version.
 24. The computer readable medium of claim 20, whereinsaid node identifier comprises a serial number for a chassis backplaneof said first electronic device.
 25. The computer readable medium ofclaim 22, wherein said node identifier comprises a serial number for achassis backplane of said second electronic device.
 26. The computerreadable medium of claim 19, wherein said generating a request comprisesinstructions for performing: retrieving a first official node identifierstored in first non-volatile memory dedicated to said first electronicdevice, said official node identifier used as said first nodeidentifier; and retrieving a second official node identifier stored insecond non-volatile memory dedicated to said second electronic device,said second official node identifier used as said second nodeidentifier.
 27. A system for transferring licenses between devices,comprising: means for generating a request to transfer a license from afirst electronic device to a second electronic device, said requestcontaining first information unique to said first electronic device,second information unique to said second electronic device, and alicense description, wherein said license enables a service feature onsaid first electronic device and said second electronic device; meansfor sending said request to a license distributor that generates amaster key in response to said request, wherein said master keycomprises a removal key comprising said first information for removingsaid license from said first electronic device and an add key comprisingsaid second information for adding said license to said secondelectronic device; means for receiving said master key from said licensedistributor; means for using said removal key to remove said licensefrom said first electronic device by installing said master key on saidfirst electronic device when said first information in said master keymatches official versions of said first information on said firstelectronic device, wherein said add key is revealed from said master keywhen said license is successfully removed; and means for installing saidadd key on said second electronic device to add said license to saidsecond electronic device when said second information matches officialversions of said second information on said second electronic device.28. The system of claim 27, further comprising: means for comparing anode identifier in said first information to an official node identifierfor said first electronic device, said official node identifier storedin a non-volatile memory dedicated to said first electronic device;means for comparing a sequence number in said first information to anofficial sequence number associated with said first electronic device,said official sequence number stored in said non-volatile memory; meansfor removing said license from a pool of licenses available to saidfirst electronic device when said node identifier matches said officialnode identifier and said sequence number matches said official sequencenumber; and means for incrementing said official sequence number aftersuccessful removal of said license.
 29. The system of claim 28, furthercomprising: means for comparing a software version in said firstinformation to an official software version for said first electronicdevice that is stored in said non-volatile memory; and means forremoving said license from said pool of licenses when said softwareversion matches said official software version.
 30. The system of claim27, wherein said installing said add key further comprises: means forcomparing a node identifier in said second information to an officialnode identifier for said second electronic device, said official nodeidentifier stored in non-volatile memory dedicated to said secondelectronic device; means for comparing a sequence number in said secondinformation to an official sequence number associated with said secondelectronic device, said official sequence number stored in saidnon-volatile memory; means for adding said license to a pool of licensesavailable to said second electronic device when said node identifiermatches said official node identifier and said sequence number matchessaid official sequence number; and means for incrementing said secondsequence number after successful transfer of said license to said poolof licenses.
 31. The system of claim 28, further comprising instructionsfor performing: means for comparing a software version in said secondinformation to an official software version for said second electronicdevice that is stored in said non-volatile memory; and means for addingsaid license to said pool of licenses when said software version matchessaid official software version.
 32. The system of claim 28, wherein saidnode identifier comprises a serial number for a chassis backplane ofsaid first electronic device.
 33. The system of claim 30, wherein saidnode identifier comprises a serial number for a chassis backplane ofsaid second electronic device.
 34. The system of claim 27, wherein saidmeans for generating a request comprises: means for retrieving a firstofficial node identifier stored in first non-volatile memory dedicatedto said first electronic device, said official node identifier used assaid first node identifier; and means for retrieving a second officialnode identifier stored in second non-volatile memory dedicated to saidsecond electronic device, said second official node identifier used assaid second node identifier.
 35. A computer readable medium containingexecutable instructions which, when executed in a processing system,causes the system to perform a method for off-line transfer of licensesbetween electronic devices, comprising: receiving a request from aservice customer to transfer a license from a first electronic device toa second electronic device, said request containing first informationunique to said first electronic device, second information unique tosaid second electronic device, and a license description, wherein saidlicense enables a service feature on said first electronic device andsaid second electronic device; generating a master key, wherein saidmaster key comprises a removal key comprising said first information forremoving said license from said first electronic device and an add keycomprising said second information for adding said license to saidsecond electronic device; encrypting said master key; and sending saidrequest to said service customer.
 36. The computer readable medium ofclaim 35, wherein said receiving a request further comprisesinstructions for performing: receiving said request through a webinterface off-line from said first electronic device and said secondelectronic device.
 37. The computer readable medium of claim 35, whereinsaid generating a master key further comprises instructions forperforming: formatting said removal key according to a first softwareversion operating on said first electronic device, said first softwareversion included within said request; and formatting said removal keyaccording to a second software version operating on said secondelectronic device, said second software version included within saidrequest.
 38. The computer readable medium of claim 35, wherein saidfirst information comprises a first node identifier, a first sequencenumber, and a software version all associated with said first electronicdevice, and wherein said second information comprises a second nodeidentifier, a second sequence number, and a second software version allassociated with said second electronic device.
 39. A system for off-linetransfer of licenses between electronic devices, comprising: means forreceiving a request from a service customer to transfer a license from afirst electronic device to a second electronic device, said requestcontaining first information unique to said first electronic device,second information unique to said second electronic device, and alicense description, wherein said license enables a service feature onsaid first electronic device and said second electronic device; meansfor generating a master key, wherein said master key comprises a removalkey comprising said first information for removing said license fromsaid first electronic device and an add key comprising said secondinformation for adding said license to said second electronic device;means for encrypting said master key; and means for sending said requestto said service customer.
 40. The system of claim 39, wherein saidreceiving a request further comprises instructions for performing: meansfor receiving said request through a web interface off-line from saidfirst electronic device and said second electronic device.
 41. Thesystem of claim 39, wherein said generating a master key furthercomprises instructions for performing: means for formatting said removalkey according to a first software version operating on said firstelectronic device, said first software version included within saidrequest; and means for formatting said removal key according to a secondsoftware version operating on said second electronic device, said secondsoftware version included within said request.
 42. The system of claim39, wherein said first information comprises a first node identifier, afirst sequence number, and a software version all associated with saidfirst electronic device, and wherein said second information comprises asecond node identifier, a second sequence number, and a second softwareversion all associated with said second electronic device.
 43. A systemfor off-line transfer of licenses between electronic devices,comprising: a receiver for receiving a request from a service customerto transfer a license from a first electronic device to a secondelectronic device, said request containing first information unique tosaid first electronic device, second information unique to said secondelectronic device, and a license description, wherein said licenseenables a service feature on said first electronic device and saidsecond electronic device; a generator for generating a master key,wherein said master key comprises a removal key comprising said firstinformation for removing said license from said first electronic deviceand an add key comprising said second information for adding saidlicense to said second electronic device; and encryptor for encryptingsaid master key; and a transmitter for sending said request to saidservice customer.
 44. An electronic device that is capable of off-linetransfer of licenses, comprising: a non-volatile memory dedicated to achassis of said electronic device, said non-volatile memory storing anofficial sequence number and an official node identifier for saidelectronic device; a controller module coupled to said non-volatilememory for enabling the transfer of a license, wherein said controllermodule receives node identifier information and sequence numberinformation in a key for transferring said license said controllermodule further comprising: a license manager for managing a plurality oflicenses available to said electronic device; a comparator for comparingsaid node identifier information to said official node identifier andsaid sequence number information to said official sequence number; and atransfer module for transferring said license when said node identifierinformation matches said official node identifier and when said sequencenumber information matches said official sequence number.
 45. Theelectronic device of claim 44, wherein said key comprises a removal key,and said transfer module removes said license from said pool oflicenses.
 46. The electronic device of claim 44, wherein said keycomprises an add key and said transfer module adds said license to saidpool of licenses.